Jo Dunkley

The Herschel-SPIRE Legacy Survey (HSLS): the scientific goals of a shallow and wide submillimeter imaging survey with SPIRE

ArXiv 1007.3519 (2010)

Authors:

Asantha Cooray, Steve Eales, Scott Chapman, David L Clements, Olivier Dore, Duncan Farrah, Matt J Jarvis, Manoj Kaplinghat, Mattia Negrello, Alessandro Melchiorri, Hiranya Peiris, Alexandra Pope, Mario G Santos, Stephen Serjeant, Mark Thompson, Glenn White, Alexandre Amblard, Manda Banerji, Pier-Stefano Corasaniti, Sudeep Das, Francesco de_Bernardis, Gianfranco de_Zotti, Tommaso Giannantonio, Joaquin Gonzalez-Nuevo Gonzalez, Ali Ahmad Khostovan, Ketron Mitchell-Wynne, Paolo Serra, Yong-Seon Song, Joaquin Vieira, Lingyu Wang, Michael Zemcov, Filipe Abdalla, Jose Afonso, Nabila Aghanim, Paola Andreani, Itziar Aretxaga, Robbie Auld, Maarten Baes, Andrew Baker, Denis Barkats, R Belen Barreiro, Nicola Bartolo, Elizabeth Barton, Sudhanshu Barway, Elia Stefano Battistelli, Carlton Baugh, Alexander Beelen, Karim Benabed, Andrew Blain, Joss Bland-Hawthorn, James J Bock, J Richard Bond, Julian Borrill, Colin Borys, Alessandro Boselli, Francois R Bouchet, Carrie Bridge, Fabrizio Brighenti, Veronique Buat, David Buote, Denis Burgarella, Robert Bussmann, Erminia Calabrese, Christopher Cantalupo, Raymond Carlberg, Carla Sofia Carvalho, Caitlin Casey, Antonio Cava, Jordi Cepa, Edward Chapin, Ranga Ram Chary, Xuelei Chen, Sergio Colafrancesco, Shaun Cole, Peter Coles, Alexander Conley, Luca Conversi, Jeff Cooke, Steven Crawford, Catherine Cress, Elisabete da Cunha, Gavin Dalton, Luigi Danese, Helmut Dannerbauer, Jonathan Davies, Paolo de Bernardis, Roland de Putter, Mark Devlin, Jose M Diego, Herve Dole, Marian Douspis, Joanna Dunkley, James Dunlop, Loretta Dunne, Rolando Dunner, Simon Dye, George Efstathiou, Eiichi Egami, Taotao Fang, Patrizia Ferrero, Alberto Franceschini, Christopher C Frazer, David Frayer, Carlos Frenk, Ken Ganga, Raphael Gavazzi, Jason Glenn, Yan Gong, Eduardo Gonzalez-Solares, Matt Griffin, Qi Guo, Mark Gurwell, Amir Hajian, Mark Halpern, Duncan Hanson, Martin Hardcastle, Evanthia Hatziminaoglou, Alan Heavens, Sebastien Heinis, Diego Herranz, Matt Hilton, Shirley Ho, Benne W Holwerda, Rosalind Hopwood, Jonathan Horner, Kevin Huffenberger, David H Hughes, John P Hughes, Edo Ibar, Rob Ivison, Neal Jackson, Andrew Jaffe, Timothy Jenness, Gilles Joncas, Shahab Joudaki, Sugata Kaviraj, Sam Kim, Lindsay King, Theodore Kisner, Johan Knapen, Alexei Kniazev, Eiichiro Komatsu, Leon Koopmans, Chao-Lin Kuo, Cedric Lacey, Ofer Lahav, Anthony N Lasenby, Andy Lawrence, Myung Gyoon Lee, Lerothodi L Leeuw, Louis R Levenson, Geraint Lewis, Nicola Loaring, Marcos Lopez-Caniego, Steve Maddox, Tobias Marriage, Gaelen Marsden, Enrique Martinez-Gonzalez, Silvia Masi, Sabino Matarrese, William G Mathews, Shuji Matsuura, Richard McMahon, Yannick Mellier, Felipe Menanteau, Michal J Michalowski, Marius Millea, Bahram Mobasher, Subhanjoy Mohanty, Ludovic Montier, Kavilan Moodley, Gerald H Moriarty-Schieven, Angela Mortier, Dipak Munshi, Eric Murphy, Kirpal Nandra, Paolo Natoli, Hien Nguyen, Seb Oliver, Alain Omont, Lyman Page, Mathew Page, Roberta Paladini, Stefania Pandolfi, Enzo Pascale, Guillaume Patanchon, John Peacock, Chris Pearson, Ismael Perez-Fournon, Pablo G Perez-Gonz, Francesco Piacentini, Elena Pierpaoli, Michael Pohlen, Etienne Pointecouteau, Gianluca Polenta, Jason Rawlings, Erik D Reese, Emma Rigby, Giulia Rodighiero, Encarni Romero-Colmenero, Isaac Roseboom, Michael Rowan-Robinson, Miguel Sanchez-Portal, Fabian Schmidt, Michael Schneider, Bernhard Schulz, Douglas Scott, Chris Sedgwick, Neelima Sehgal, Nick Seymour, Blake D Sherwin, Jo Short, David Shupe, Jonathan Sievers, Ramin Skibba, Joseph Smidt, Anthony Smith, Daniel JB Smith, Matthew WL Smith, David Spergel, Suzanne Staggs, Jason Stevens, Eric Switzer, Toshinobu Takagi, Tsutomu Takeuchi, Pasquale Temi, Markos Trichas, Corrado Trigilio, Katherine Tugwell, Grazia Umana, William Vacca, Mattia Vaccari, Petri Vaisanen, Ivan Valtchanov, Kurt van der Heyden, Paul P van der Werf, Eelco van_Kampen, Ludovic van_Waerbeke, Simona Vegetti, Marcella Veneziani, Licia Verde, Aprajita Verma, Patricio Vielva, Marco P Viero, Baltasar Vila Vilaro, Julie Wardlow, Grant Wilson, Edward L Wright, C Kevin Xu, Min S Yun

Abstract:

A large sub-mm survey with Herschel will enable many exciting science opportunities, especially in an era of wide-field optical and radio surveys and high resolution cosmic microwave background experiments. The Herschel-SPIRE Legacy Survey (HSLS), will lead to imaging data over 4000 sq. degrees at 250, 350, and 500 micron. Major Goals of HSLS are: (a) produce a catalog of 2.5 to 3 million galaxies down to 26, 27 and 33 mJy (50% completeness; 5 sigma confusion noise) at 250, 350 and 500 micron, respectively, in the southern hemisphere (3000 sq. degrees) and in an equatorial strip (1000 sq. degrees), areas which have extensive multi-wavelength coverage and are easily accessible from ALMA. Two thirds of the of the sources are expected to be at z > 1, one third at z > 2 and about a 1000 at z > 5. (b) Remove point source confusion in secondary anisotropy studies with Planck and ground-based CMB data. (c) Find at least 1200 strongly lensed bright sub-mm sources leading to a 2% test of general relativity. (d) Identify 200 proto-cluster regions at z of 2 and perform an unbiased study of the environmental dependence of star formation. (e) Perform an unbiased survey for star formation and dust at high Galactic latitude and make a census of debris disks and dust around AGB stars and white dwarfs.

ACTPol: A polarization-sensitive receiver for the Atacama Cosmology Telescope

ArXiv 1006.5049 (2010)

Authors:

MD Niemack, PAR Ade, J Aguirre, F Barrientos, JA Beall, JR Bond, J Britton, HM Cho, S Das, MJ Devlin, S Dicker, J Dunkley, R Dunner, JW Fowler, A Hajian, M Halpern, M Hasselfield, GC Hilton, M Hilton, J Hubmayr, JP Hughes, L Infante, KD Irwin, N Jarosik, J Klein, A Kosowsky, TA Marriage, J McMahon, F Menanteau, K Moodley, JP Nibarger, MR Nolta, LA Page, B Partridge, ED Reese, J Sievers, DN Spergel, ST Staggs, R Thornton, C Tucker, E Wollack, KW Yoon

Abstract:

The six-meter Atacama Cosmology Telescope (ACT) in Chile was built to measure the cosmic microwave background (CMB) at arcminute angular scales. We are building a new polarization sensitive receiver for ACT (ACTPol). ACTPol will characterize the gravitational lensing of the CMB and aims to constrain the sum of the neutrino masses with ~0.05 eV precision, the running of the spectral index of inflation-induced fluctuations, and the primordial helium abundance to better than 1%. Our observing fields will overlap with the SDSS BOSS survey at optical wavelengths, enabling a variety of cross-correlation science, including studies of the growth of cosmic structure from Sunyaev-Zel'dovich observations of clusters of galaxies as well as independent constraints on the sum of the neutrino masses. We describe the science objectives and the initial receiver design.

Observing the Evolution of the Universe

ArXiv 0903.0902 (2009)

Authors:

James Aguirre, Alexandre Amblard, Amjad Ashoorioon, Carlo Baccigalupi, Amedeo Balbi, James Bartlett, Nicola Bartolo, Dominic Benford, Mark Birkinshaw, Jamie Bock, Dick Bond, Julian Borrill, Franois Bouchet, Michael Bridges, Emory Bunn, Erminia Calabrese, Christopher Cantalupo, Ana Caramete, Carmelita Carbone, Suchetana Chatterjee, Sarah Church, David Chuss, Carlo Contaldi, Asantha Cooray, Sudeep Das, Francesco De Bernardis, Paolo De Bernardis, Gianfranco De Zotti, Jacques Delabrouille, F-Xavier Dsert, Mark Devlin, Clive Dickinson, Simon Dicker, Matt Dobbs, Scott Dodelson, Olivier Dore, Jessie Dotson, Joanna Dunkley, Maria Cristina Falvella, Dale Fixsen, Pablo Fosalba, Joseph Fowler, Evalyn Gates, Walter Gear, Sunil Golwala, Krzysztof Gorski, Alessandro Gruppuso, Josh Gundersen, Mark Halpern, Shaul Hanany, Masashi Hazumi, Carlos Hernandez-Monteagudo, Mark Hertzberg, Gary Hinshaw, Christopher Hirata, Eric Hivon, Warren Holmes, William Holzapfel, Wayne Hu, Johannes Hubmayr, Kevin Huffenberger, Kent Irwin, Mark Jackson, Andrew Jaffe, Bradley Johnson, William Jones, Manoj Kaplinghat, Brian Keating, Reijo Keskitalo, Justin Khoury, Will Kinney, Theodore Kisner, Lloyd Knox, Alan Kogut, Eiichiro Komatsu, Arthur Kosowsky, John Kovac, Lawrence Krauss, Hannu Kurki-Suonio, Susana Landau, Charles Lawrence, Samuel Leach, Adrian Lee, Erik Leitch, Rodrigo Leonardi, Julien Lesgourgues, Andrew Liddle, Eugene Lim, Michele Limon, Marilena Loverde, Philip Lubin, Antonio Magalhaes, Davide Maino, Tobias Marriage, Victoria Martin, Sabino Matarrese, John Mather, Harsh Mathur, Tomotake Matsumura, Pieter Meerburg, Alessandro Melchiorri, Stephan Meyer, Amber Miller, Michael Milligan, Kavilan Moodley, Michael Neimack, Hogan Nguyen, Ian O'Dwyer, Angiola Orlando, Luca Pagano, Lyman Page, Bruce Partridge, Timothy Pearson, Hiranya Peiris, Francesco Piacentini, Lucio Piccirillo, Elena Pierpaoli, Davide Pietrobon, Giampaolo Pisano, Levon Pogosian, Dmitri Pogosyan, Nicolas Ponthieu, Lucia Popa, Clement Pryke, Christoph Raeth, Subharthi Ray, Christian Reichardt, Sara Ricciardi, Paul Richards, Graca Rocha, Lawrence Rudnick, John Ruhl, Benjamin Rusholme, Claudia Scoccola, Douglas Scott, Carolyn Sealfon, Neelima Sehgal, Michael Seiffert, Leonardo Senatore, Paolo Serra, Sarah Shandera, Meir Shimon, Peter Shirron, Jonathan Sievers, Kris Sigurdson, Joe Silk, Robert Silverberg, Eva Silverstein, Suzanne Staggs, Albert Stebbins, Federico Stivoli, Radek Stompor, Naoshi Sugiyama, Daniel Swetz, Andria Tartari, Max Tegmark, Peter Timbie, Matthieu Tristram, Gregory Tucker, Jon Urrestilla, John Vaillancourt, Marcella Veneziani, Licia Verde, Joaquin Vieira, Scott Watson, Benjamin Wandelt, Grant Wilson, Edward Wollack, Mark Wyman, Amit Yadav, Giraud-Heraud Yannick, Olivier Zahn, Matias Zaldarriaga, Michael Zemcov, Jonathan Zwart

Abstract:

How did the universe evolve? The fine angular scale (l>1000) temperature and polarization anisotropies in the CMB are a Rosetta stone for understanding the evolution of the universe. Through detailed measurements one may address everything from the physics of the birth of the universe to the history of star formation and the process by which galaxies formed. One may in addition track the evolution of the dark energy and discover the net neutrino mass. We are at the dawn of a new era in which hundreds of square degrees of sky can be mapped with arcminute resolution and sensitivities measured in microKelvin. Acquiring these data requires the use of special purpose telescopes such as the Atacama Cosmology Telescope (ACT), located in Chile, and the South Pole Telescope (SPT). These new telescopes are outfitted with a new generation of custom mm-wave kilo-pixel arrays. Additional instruments are in the planning stages.

The Origin of the Universe as Revealed Through the Polarization of the Cosmic Microwave Background

ArXiv 0902.3796 (2009)

Authors:

S Dodelson, R Easther, S Hanany, L McAllister, S Meyer, L Page, P Ade, A Amblard, A Ashoorioon, C Baccigalupi, A Balbi, J Bartlett, N Bartolo, D Baumann, M Beltran, D Benford, M Birkinshaw, J Bock, D Bond, J Borrill, F Bouchet, M Bridges, E Bunn, E Calabrese, C Cantalupo, A Caramete, C Carbone, S Carroll, S Chatterjee, X Chen, S Church, D Chuss, C Contaldi, A Cooray, P Creminelli, S Das, F De Bernardis, P de Bernardis, J Delabrouille, F-X Desert, M Devlin, C Dickinson, S Dicker, M DiPirro, M Dobbs, O Dore, J Dotson, J Dunkley, C Dvorkin, HK Eriksen, M Cristina Falvella, D Finley, D Finkbeiner, D Fixsen, R Flauger, P Fosalba, J Fowler, S Galli, E Gates, W Gear, Y Giraud-Heraud, K Gorski, B Greene, A Gruppuso

Abstract:

Modern cosmology has sharpened questions posed for millennia about the origin of our cosmic habitat. The age-old questions have been transformed into two pressing issues primed for attack in the coming decade: How did the Universe begin? and What physical laws govern the Universe at the highest energies? The clearest window onto these questions is the pattern of polarization in the Cosmic Microwave Background (CMB), which is uniquely sensitive to primordial gravity waves. A detection of the special pattern produced by gravity waves would be not only an unprecedented discovery, but also a direct probe of physics at the earliest observable instants of our Universe. Experiments which map CMB polarization over the coming decade will lead us on our first steps towards answering these age-old questions.

FIVE-YEAR WILKINSON MICROWAVE ANISOTROPY PROBE OBSERVATIONS: SOURCE CATALOG

ASTROPHYSICAL JOURNAL SUPPLEMENT SERIES 180:2 (2009) 283-295

Authors:

EL Wright, X Chen, N Odegard, CL Bennett, RS Hill, G Hinshaw, N Jarosik, E Komatsu, MR Nolta, L Page, DN Spergel, JL Weiland, E Wollack, J Dunkley, B Gold, M Halpern, A Kogut, D Larson, M Limon, SS Meyer, GS Tucker